A Pleistocene paleoceanographic record from the north slope of the Spratly Islands, southern South China Sea

A 1.4 my paleoceanographic history for offshore north central Spratly Islands, southern South China Sea, is reconstructed using stable isotope, carbonate content, coarse fraction, and planktonic foraminifera census data from gravity core SO95-17957-2. The chronological framework for 5095-17957-2 is based on stable oxygen isotope correlation with open ocean records and constrained with AMS-C-14 dates, floral and faunal bioevents, and a Pleistocene microtektite event. Stable oxygen isotope composition of surface water reflects mainly changes in high latitude ice volume but also riverine water influx from surrounding land. Stable carbon isotope record suggests that surface water delta C-13 in the southern South China Sea has been modulated primarily by global changes in atmospheric CO: since the early Pleistocene. Dissimilarities between delta O-18 patterns in SO95-17957-2 and those in various cores from the rest of the South China Sea indicate that between 60 and 120 Ka surface water chemistry at offshore north central Spratly Islands may be affected by different mechanisms. Those differences likely reflect unknown hydrological conditions during stages 4 and 5. Carbonate content is lower during the interglacial periods than during the glacial-deglacial periods, which are opposite to the general trend in the shallow South China Sea areas during the same period. Faunal composition, RSP and various dissolution indices suggest that productivity is the most important factor controlling carbonate preservation. Dissolution above the lysocline may modify the productivity signal but cannot reverse the entire pattern. Faunal composition and carbonate Aux suggests productivity is higher during glacial-deglacial than during interglacial. Stronger glacial winter monsoon induces stronger upwelling and deep mixing and enhances nutrient cycling in the surface ocean, which in turn increases productivity. Estimated summer sea surface temperature (SST) based on transfer function Fe-12E agrees with delta O-18 and is consistently between 28 and 29 degreesC during most of the last 1.4 my Winter SST reflects geographic location and changes in surface hydrology, and fluctuates between 25 and 28 degreesC, During the last glacial period disconnection of the South China Sea from the Indian Ocean and the influx of temperate water through the Bashi Channel allowed winter SSTs to vary by as much as 3.5 degreesC. Comparison of modem and estimated SST and SST estimates based on different methods suggest that G. bulloides acid G. menardii are probably overweighed in transfer function FP-12E, which cause discrepancies in SST estimation. (C) 2001 Elsevier Science B.V. All rights reserved.